Control of macromolecular architecture of polyamides by poly‐functional agents. 2. Use of oligomerization in polycondensation study

In the first paper of the series, a statistical model for star‐branched polycondenzation of AB type monomers in the presence of a polyfunctional agent RA f was completely developed. The analytical expressions obtained for the number‐average (D̄P̄ n̄ ) and weight‐average (D̄P̄ w̄ ) degree of polymerization, and the dispersion index (D) for whole polymer species, linear and star macromolecular chains, are now derived as function of the feed and of end‐group analysis. Also the important molecular parameter, mole fraction of star‐branched polymer, can be evaluated. Some numerical examples are presented. It is illustrated that the molecular weight properties of the linear and star‐branched polymers in the mixture of the products, very important factors for the application of this kind of polymeric materials, can be determined starting from the feed and terminal group analysis. Polymerization and oligomerization of 6‐aminocaproic acid were carried out in the presence of trimesic (T3) acid and 2,2,6,6‐tetra(β‐carboxyethyl)cyclohexanone (T4) and EDTA as tri‐ and terra‐functional agents. The molecular weights calculated are in good agreement with those obtained by Size Exclusion Chromatography (SEC), end group analysis and NMR spectra.